I have a list of objects. Each object has two fields

obj1.status = 2
obj1.timestamp = 19211

obj2.status = 3
obj2.timestamp = 14211

obj_list = [obj1, obj2]

I will keep adding / deleting objects in the list and also changing attributes of objects, for example I may change ob1.status to 5.
Now I have two dicts

dict1 - <status, object>
dict2 - <timestamp, object> 

How do I design a simple solution so that whenever I modify/delete/insert elements in the list, the maps get automatically updated. I am interested in a pythonic solution that is elegant and extensible. For example in future, I should be able to easily add another attribute and dict for that as well

Also for simplicity, let us assume all attributes value are different. For example no two objects will have same status

  • Why would you create dictionaries of <status, object> and <timestamp, object> when the object already has both the attributes? May 27, 2016 at 17:07
  • I want indexes for fast access , for example I want to get object of status 3 May 27, 2016 at 17:08
  • 3
    What happens if multiple objects have similar status or timestamp? May 27, 2016 at 17:10
  • we can modify the map to be <status, set(object)> ... for simplicity , let us assume all attributes are different May 27, 2016 at 17:14
  • 1
    @jonrsharpe Generalising to O(n) is not really accurate, it depends on the data. Consider for example some tree structures with O(log n) lookups.
    – wim
    May 27, 2016 at 17:17

4 Answers 4


You could override the __setattr__ on the objects to update the indexes whenever you set the values. You can use a weakref dictionary for the indexes so that when you delete objects and are no longer using them, they are automatically removed from the indexes.

import weakref
from bunch import Bunch

class MyObject(object):

    indexes = Bunch()  # Could just use dict()

    def __init__(self, **kwargs):
        super(MyObject, self).__init__()
        for k, v in kwargs.items():
            setattr(self, k, v)

    def __setattr__(self, name, value):
            index = MyObject.indexes[name]
        except KeyError:
            index = weakref.WeakValueDictionary()
            MyObject.indexes[name] = index
            old_val = getattr(self, name)
            del index[old_val]
        except (KeyError, AttributeError):
        object.__setattr__(self, name, value)
        index[value] = self

obj1 = MyObject(status=1, timestamp=123123)
obj2 = MyObject(status=2, timestamp=2343)

print MyObject.indexes.status[1]
print obj1.indexes.timestamp[2343]
obj1.status = 5
print obj2.indexes['status'][5]

I used a Bunch here because it allows you to access the indexes using .name notation, but you could just use a dict instead and use the ['name'] syntax.

  • Nice! Deletion is not working. The element is only deleted from the list , so a strong reference to object is still in memory. Also would be nice to generalize this so that instead of creating status_map and timestamp_map, the class could take as input list of attributes and build from there. May 27, 2016 at 18:32
  • You'd have to delete all the references. That means deleting it from the list and doing del obj1. Also, if you're doing this from python prompt, the last returned value gets set to the _ variable, so you'll need to reset that or delete it as well. May 27, 2016 at 18:38
  • @darkknight Yeah, you could do Yakym did and just make them class attributes, so that you don't have to create them outside of the class. May 27, 2016 at 18:40
  • Thought again ... deleting object also does makes sense. Deletion is working. May 27, 2016 at 18:45
  • again don't want to create property for each attribute. So thinking if we can further create a fixed code that would work for any number of attributes May 27, 2016 at 18:47

One approach here would be to create a class level dict for MyObj and define updating behavior using property decorator. Every time an object is changed or added, it is reflected in the respected dictionaries associated with the class.

Edit: as @BrendanAbel points out, using weakref.WeakValueDictionary in place of dict handles object deletion from class level dicts.

from datetime import datetime
from weakref import WeakValueDictionary

DEFAULT_TIME = datetime.now()

class MyObj(object):
    A sample clone of your object
    timestamps = WeakValueDictionary()
    statuses   = WeakValueDictionary()

    def __init__(self, status=0, timestamp=DEFAULT_TIME):
        self._status    = status
        self._timestamp = timestamp

        self.status     = status
        self.timestamp  = timestamp

    def __update_class(self):
        MyObj.timestamps.update({self.timestamp: self})
        MyObj.statuses.update({self.status: self})

    def __delete_from_class(self):
        maybe_self = MyObj.statuses.get(self.status, None)
        if maybe_self is self is not None:
            del MyObj.statuses[self.status]

        maybe_self = MyObj.timestamps.get(self.timestamp, None)
        if maybe_self is self is not None:
            del MyObj.timestamps[self.timestamp]

    def status(self):
        return self._status

    def status(self, val):
        self._status = val

    def timestamp(self):
        return self._timestamp

    def timestamp(self, val):
        self._timestamp = val

    def __repr__(self):
        return "MyObj: status={} timestamp={}".format(self.status, self.timestamp)

obj1 = MyObj(1)
obj2 = MyObj(2)
obj3 = MyObj(3)

lst = [obj1, obj2, obj3]

# In [87]: q.lst
# Out[87]: 
# [MyObj: status=1 timestamp=2016-05-27 13:43:38.158363,
#  MyObj: status=2 timestamp=2016-05-27 13:43:38.158363,
#  MyObj: status=3 timestamp=2016-05-27 13:43:38.158363]

# In [88]: q.MyObj.statuses[1]
# Out[88]: MyObj: status=1 timestamp=2016-05-27 13:43:38.158363

# In [89]: q.MyObj.statuses[1].status = 42

# In [90]: q.MyObj.statuses[42]
# Out[90]: MyObj: status=42 timestamp=2016-05-27 13:43:38.158363

# In [91]: q.MyObj.statuses[1]
# ---------------------------------------------------------------------------
# KeyError                                  Traceback (most recent call last)
# <ipython-input-91-508ab072bfc4> in <module>()
# ----> 1 q.MyObj.statuses[1]

# KeyError: 1
  • @darkknight good edit, although it is not required for python 3. May 27, 2016 at 18:11
  • Nice ! Doesn't work when item is deleted from list. Also added an assumption in question. So maybe __delete_from_class can be removed. May 27, 2016 at 18:14
  • You are correct, this does not update the dicts when an object is removed from the list. The __delete_from_class is used to make sure that the same object is not pointed to by two different values. May 27, 2016 at 18:21
  • 1
    If you make the indexes weakref.WeakValueDictionary's, it will automatically remove them when you delete the object May 27, 2016 at 18:24

For a collection to be aware of mutation of its elements, there must be some connection between the elements and that collection which can communicate when changes happen. For this reason, we either must bind an instance to a collection or proxy the elements of the collection so that change-communication doesn't leak into the element's code.

A note about the implementation I'm going to present, the proxying method only works if the attributes are changed by direct setting, not inside of a method. A more complex book-keeping system would be necessary then.

Additionally, it assumes that exact duplicates of all attributes won't exist, given that you require the indices be built out of set objects instead of list

from collections import defaultdict

class Proxy(object):
    def __init__(self, proxy, collection):
        self._proxy = proxy
        self._collection = collection

    def __getattribute__(self, name):
        if name in ("_proxy", "_collection"):
           return object.__getattribute__(self, name)
           proxy = self._proxy
           return getattr(proxy, name)

    def __setattr__(self, name, value):
        if name in ("_proxy", "collection"):
           object.__setattr__(self, name, value)
           proxied = self._proxy
           collection = self._collection
           old = getattr(proxied, name)
           setattr(proxy, name, value)
           collection.signal_change(proxied, name, old, value)

class IndexedCollection(object):
     def __init__(self, items, index_names):
         self.items = list(items)
         self.index_names = set(index_names)
         self.indices = defaultdict(lambda: defaultdict(set))

     def __len__(self):
         return len(self.items)

     def __iter__(self):
         for i in range(len(self)):
             yield self[i]    

     def remove(self, obj):

     def __getitem__(self, i):
         # Ensure consumers get a proxy, not a raw object
         return Proxy(self.items[i], self)

     def append(self, obj):

     def _add_to_indices(self, obj):
          for indx in self.index_names:
              key = getattr(obj, indx)

     def _remove_from_indices(self, obj):
          for indx in self.index_names:
              key = getattr(obj, indx)

     def signal_change(self, obj, indx, old, new):
          if indx not in self.index_names:
          # Tell the container to update its indices for a
          # particular attribute and object

I am not sure if this is what you are asking for but ...


import operator
class Foo(object):
    def __init__(self):
        self.one = 1
        self.two = 2

f = Foo()
f.name = 'f'
g = Foo()
g.name = 'g'
h = Foo()
h.name = 'h'

name = operator.attrgetter('name')

lists: a initially contains f and b initially contains h

a = [f]
b = [h]

dictionaries: each with one item whose value is one of the lists

d1 = {1:a}
d2 = {1:b}

d1[1] is list a which contains f and f.one is 1

>>> d1
{1: [<__main__.Foo object at 0x03F4CA50>]}
>>> name(d1[1][0])
>>> name(d1[1][0]), d1[1][0].one
('f', 1)

changing f.one is seen in the dictionary

>>> f.one = '?'
>>> name(d1[1][0]), d1[1][0].one
('f', '?')

d2[1] is list b which contains h

>>> d2
{1: [<__main__.Foo object at 0x03F59070>]}
>>> name(d2[1][0]), d2[1][0].one
('h', 1)

Add an object to b and it is seen in the dictionary

>>> b.append(g)
>>> b
[<__main__.Foo object at 0x03F59070>, <__main__.Foo object at 0x03F4CAF0>]
>>> d2
{1: [<__main__.Foo object at 0x03F59070>, <__main__.Foo object at 0x03F4CAF0>]}
>>> name(d2[1][1]), d2[1][1].one
('g', 1)

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